2711-B5A1/F自动化工控模块AB

ORB305产品规格今年是HICOOL0球创业者峰会举办的第三年，本届峰会以“创业同心 相聚创新”为主题，秉承“以创业者为中心”理念，打造高品质“0球创业者嘉年华”。通过集合320余家展商，开设20多场特色活动，峰会集聚了更多0秀的创新创业人才，构建起0链条创业生态服务，0力服务创业者成长。创新是ABB DNA的重要组成，

也是ABB一个多世纪以来服务于0各地、各行业客户的源动力。”他继而以视频形式，和与会者一起回顾了ABB 130余年的创新亮点。凭借一项项里程碑式的创新技术，ABB站在了历次工业革命的0前沿，推动了众多行业的诞生、演进与发展。ABB致力于推动社会与行业转型，实现更高效、可持续的未来。技术是绿色转型的主要驱动力：可再生能源的广泛使用，能源效率的不断0化，电气化、数字化和自动化智能技术的加速应用——这些已成为我们迈向更加可持续未来的关键中国在可再生能源装机规模和增长方面均处于00先地位。过去十年间，中国可再生能源发电装机总量增长了约90倍，2021年底达到11亿千瓦。作为00先的可再生能源创新技术供应商，ABB为光伏发电、风能发电和储能电站提供0面的解决方案，并通过配电数字化升级，加速0行业实现低碳高效的能源转型之路。在0化能源效率方面，ABB能产生的0大影响是通过0先技术，帮助减少工业、建筑和交通0域的能源使用——这些0域占到0球能源消耗的近3/4。例如，0球45%的电力用于驱动楼宇建筑和工业应用的电机，因此提升电机效率能带来巨大的节能潜力。到2021年底，ABB已向中国用户交付了超过1100万台变频器和高效电机，累计节能超过5000亿度电。在智能制造0域，根据0新的0球数据，中国2020年工业机器人安装量超过16.8万台，创下了单个国家机器人安装数量的0高纪录。ABB在这一过程中发挥了积极的作用，同时也持续推动机器人向着更智能、更强大、更简单易用、更节能环保的方向努力。ABB机器人超级工厂将在今年晚些时候在上海投入运营，更好地满足快速增长的市场需求交通0域是碳排放的另一个主要贡献者，电动交通是实现清洁发展的必由之路。ABB活跃于电动交通的整个价值链，主要产品组合包括面向汽车、公交车的电动汽车充电解决方案，用于铁路、卡车和矿山的牵引系统以及船舶0域的Azipod®推进系统和绿氢技术等。在电动汽车充电基础设施0域，ABB近期增持了上海ABB联桩的多数股权，本月ABB电动交通中国总部入驻深圳，将更好地满足中国快速增长的市场需求。“人才是创新的关键。在0球范围内，ABB与100多所大学开展合作。在中国，支持教育也是ABB的悠久传统。”康亮介绍，“我们与数十所国内高校和职业院校合作，共建联合实验室，举办技术研讨会、提供培训资源，比如通过ABB杯智能技术创新大赛、ABB电气创新挑战赛等，支持创新人才与创业团队的成长与发展。”面对气候问题影响的日益显现，可持续发展比以往任何时候都更加紧迫。作为0第二大经济体，中国发挥着至关重要的作用，提出了宏伟的双碳目标。我们相信，科技创新是实现未来可持续发展的关键所在。ABB将继续拓展技术疆界，推动持续创新，支持中国绿色转型，共创可持续未来。”0球首席执行委员会”发起“赋能未来”项目，旨在为中外0秀青年汇资源、增才干、搭舞台，助力夯实0和平繁荣与共同发展的未来基础。ABB等企业为该项目的牵头公司。去年9月，在“赋能未来”框架下，“0球首席执行委员会” 和北京市在2021 0球创业者峰会上正式启动“0球青年创业者赋能计划”。该计划旨在服务北京国际科技创新中心建设，搭建创新创业交流平台，吸引0球高端资源，培养集聚国内外0秀青年人才。LXN1604-6 3BHL000986P7000邮箱-VMEbus接口提供四个可从两个服务器访问的32位邮箱微处理器和提供处理器间接口的VMEbus表达邮箱具有中断的能力当VMEbus访问微处理器时。中断处理程序-中断处理程序并且可以被编程以响应任何或所有的信号VMEbus IRQ*行所有正常过程VMEbus都是相关的中断可以映射到PCI INTA或SERR中断。这些措施包括：邮箱中断VMEbus中断VMEbus中断器IACK循环（确认VMIVME-7697 VMEbus发出的中断）所有与错误处理VMEbus相关的可以映射到PCI INTA#或SERR#。注：PCI SERR启动SBC NMI。这些措施包括：ACFAIL*中断BERR*中断SYSFAIL*中断中断处理程序具有相应的状态/ID为每个IRQ*中断注册。一旦处理器接收到消息在IRQ*中，它请求VMEbus，一旦获得授权，它将执行以下操作：该级别的IACK循环。一旦IACK循环结束完成，状态/ID存储在相应的在ID寄存器中设置适当的中断状态位并且生成PCI中断。这个PCI中断可以映射到PCI INTA#或SERR1）对输入/输出点的选择
  要先弄清除控制系统的I/O点数，再按实际需点数的15～20％留出备用量（为系统的改造等留有余地）后确定需PLC的点数。
  PLC的输出点可分为共点式、分组式和隔离式几种接法。隔离式的各组输出点之间可以采用不同的电压种类和电压等级，但这种PLC平均每点的价格较高。如果输出信号之间不需要隔离，则应选择前两种输出方式的PLC。
  （2）对存储容量的选择
  对用户存储容量只能作粗略的估算。在仅对开关量进行控制的系统中，可以用输入点数乘10字/点＋输出点数乘5字/点来估算；计数器/定时器按（3～5）字/个估算；有运算处理时按（5～10）字/量估算；在有模拟量输入/输出的系统中，可以按每输入/（或输出）一路模拟量约需（80～100）字左右的存储容量来估算；有通信处理时按每个接口200字以上的数量粗略估算。后，一般按估算容量的50～100％留有裕量。对缺乏经验的设计者，选择容量时留有裕量要大些。
  （3）对I/O响应时间的选择
  PLC的I/O响应时间包括输入电路延迟、输出电路延迟和扫描工作方式引起的时间延迟（一般在2～3个扫描周期）等。对开关量控制的系统，PLC和I/O响应时间一般都能满足实际工程的要求，可不必考虑I/O响应问题。但对模拟量控制的系统、特别是闭环系统就要考虑这个问题。
  （4）根据输出负载的特点选型
  不同的负载对PLC的输出方式有相应的要求。例如，频繁通断的感性负载，应选择晶体管或晶闸管输出型的，而不应选用继电器输出型的。但继电器输出型的PLC有许多0点，如导通压降小，有隔离作用，价格相对较便宜，承受瞬时过电压和过电流的能力较强，其负载电压灵活（可交流、可直流）且电压等级范围大等。以动作不频繁的交、直流负载可以选择继电器输出型的PLC。
  （5）对在线和离线编程的选择
  离线编程是指主机和编程器共用一个CPU，通过编程器的方式选择开关来选择PLC的编程、监控和运行工作状态。编程状态时，CPU只为编程器服务，而不对现场进行控制。在线编程是指主机和编程器各有一个CPU，主机的CPU完成对现场的控制，在每一个扫描周期末尾与编程器通信，编程器把修改的程序发给主机，在下一个扫描周期主机将按新的程序对现场进行控制。计算机辅助编程既能实现离线编程，也能实现在线编程。在线编程需购置计算机，并配置编程软件。采用编程方法应根据需要决定。
  （6）据是否联网通信选型
  若PLC控制的系统需要联入工厂自动化网络，则PLC需要有通信联网功能，即要求PLC应具有连接其他PLC、上位计算机及CRT等的接口。大、中型机都有通信功能，目前大部分小型机也具有通信功能。
  （7）对PLC结构形式的选择
  在相同功能和相同I/O点数据的情况下，整体式比模块式价格低。但模块式具有功能扩展灵活，维修方便（换模块），容易判断故障等0点，要按实际需要选择PLC的结构形式。通用电气公司设计了IS220UCSAH1AMark VIe系统的处理器/控制器。

这是一个单盒装组件，带有一个用于通信连接的前面板，两个安装在后边缘的螺丝，以及三个用于通风的格栅孔。控制器设计安装在机柜的底部。对于一个易于为三冗余系统服务的小型设置，0多可以并排安装三个组件。传感器输出机械角θ信号，从系统接口XIO板进入CTR主控板，经R/D转换成θr，再以转子角速度ωr形式，直接将速度反馈送到速度调节器。

转矩给定T_R将来自于速度调节器的SFC_T_R进行转矩限制处理和di/dt运算，求出0终的转矩基准IQ_R信号。ID_R是磁通给定信号，它有以下功能：在基速以下，保持磁通恒定，电机恒转矩调速；基速以上，保持电压恒定，磁通按一定比例减少，电机恒功率调速。

处理器主板在矢量计算控制系统完成IGBT触发信号后，把触发脉冲传送到逆变器，控制IGBT导通和关断，得到所需电机近似于正弦波的输入电压和频率，进而调节电机转速。

2.3数据通信
ORB305 Product Specifications This year is the third year of the HICOOL Global Entrepreneurs Summit. The summit is themed "Entrepreneurship Gather Together and Innovate", adhering to the concept of "Entrepreneurs as the Center", and creating a high-quality "Global Entrepreneurs Carnival". Through the gathering of more than 320 exhibitors and more than 20 featured activities, the Summit gathered more outstanding innovation and entrepreneurship talents, built a full chain of entrepreneurial ecological services, and made every effort to serve the growth of entrepreneurs. Innovation is an important component of ABB's DNA, and it is also the source power for ABB to serve customers around the world and in various industries for more than a century. " He then reviewed ABB's innovation highlights for more than 130 years with the participants in the form of video. With landmark innovative technologies, ABB stands at the forefront of all previous industrial revolutions, promoting the birth, evolution and development of many industries. ABB is committed to promoting social and industrial transformation to achieve a more efficient and sustainable future. Technology is the main driving force of green transformation: the widespread use of renewable energy, the continuous optimization of energy efficiency, and the accelerated application of electrification, digitization and automation intelligent technologies - these have become the key to our more sustainable future. China is the world leader in terms of renewable energy installation scale and growth. Over the past decade, the total installed capacity of renewable energy power generation in China has increased by about 90 times, reaching 1.1 billion kilowatts by the end of 2021. As a world leading supplier of innovative renewable energy technologies, ABB provides comprehensive solutions for photovoltaic power generation, wind power generation and energy storage power plants, and accelerates the transformation of the whole industry to low-carbon and efficient energy through digital upgrading of power distribution. In terms of optimizing energy efficiency, the biggest impact ABB can have is to help reduce energy use in industry, construction and transportation through leading technologies - these areas account for nearly three quarters of global energy consumption. For example, 45% of the world's electricity is used to drive motors for buildings and industrial applications, so improving motor efficiency can bring huge energy saving potential. By the end of 2021, ABB has delivered more than 11 million frequency converters and efficient motors to Chinese users, saving more than 500 billion kilowatt hours of electricity accumulatively. In the field of intelligent manufacturing, according to the latest global data, China will install more than 168000 industrial robots in 2020, setting a record for the number of robots installed in a single country. ABB has played an active role in this process, and has also continued to promote robots to become more intelligent, more powerful, easier to use, more energy efficient and environmentally friendly. ABB Robot Super Factory will be put into operation in Shanghai later this year to better meet the rapidly growing market demand. Transportation is another major contributor to carbon emissions, and electric transportation is the only way to achieve clean development. ABB is active in the whole value chain of electric transportation, and its main product portfolio includes electric vehicle charging solutions for cars and buses, traction systems for railways, trucks and mines, and Azipod in the field of ships ® Propulsion system and green hydrogen technology. In the field of electric vehicle charging infrastructure, ABB recently increased its majority stake in Shanghai ABB Lianpile. This month, ABB's electric transport headquarters in China settled in Shenzhen, which will better meet China's rapidly growing market demand. "Talents are the key to innovation. ABB cooperates with more than 100 universities worldwide. In China, it has a long tradition to support education." Kang Liang said, "We cooperated with dozens of domestic universities and vocational colleges to build joint laboratories, hold technical seminars, and provide training resources. For example, we supported the growth and development of innovative talents and entrepreneurial teams through ABB Cup Smart Technology Innovation Competition and ABB Electric Innovation Challenge." In the face of the growing impact of climate issues, sustainable development is more urgent than ever. As the second largest economy in the world, China plays a vital role and has proposed a grand dual carbon target. We believe that scientific and technological innovation is the key to achieving sustainable development in the future. ABB will continue to expand its technological boundaries, promote continuous innovation, support China's green transformation and create a sustainable future. " The Global CEO Committee launched the "Empowering the Future" project, which aims to pool resources, increase talents and set up a stage for outstanding Chinese and foreign youth, and help consolidate the future foundation of world peace, prosperity and common development. ABB and other enterprises are the leading companies of the project. Last September, under the framework of "empowering the future", the "Global CEO Committee" and Beijing officially launched the "Global Young Entrepreneurs Empowerment Plan" at the 2021 Global Entrepreneurs Summit. The plan aims to serve the construction of Beijing International Science and Technology Innovation Center, build an innovation and entrepreneurship exchange platform, attract global high-end resources, and cultivate and gather outstanding young talents at home and abroad. LXN1604-6 3BHL000986P7000 Mailbox VMEbus interface provides four 32-bit mailbox microprocessors that can be accessed from two servers and VMEbus that provides the interface between processors to express that the mailbox has the ability to interrupt when VMEbus accesses the microprocessor. Interrupt handler - Interrupt handler and can be programmed to respond to any or all signals VMEbus IRQ * All normal processes VMEbus are related interrupts can be mapped to PCI INTA or SERR interrupts. These measures include: mailbox interrupt VMEbus interrupt VMEbus interrupter IACK cycle (confirm the interrupt sent by VMIVME-7697 VMEbus). All VMEbus related error handling can be mapped to PCI INTA # or SERR #. Note: PCI SERR starts SBC NMI. These measures include: ACFAIL * Interrupt BERR * Interrupt SYSFAIL * Interrupt interrupt handler has corresponding status/ID is registered for each IRQ * interrupt. Once the processor receives the message in IRQ *, it requests VMEbus. Once authorized, it will perform the following operations: IACK loop at this level. Once the IACK cycle is completed, the status/ID is stored in the corresponding ID register to set the appropriate interrupt status bit and generate a PCI interrupt. This PCI interrupt can be mapped to PCI INTA # or SERR1) selection of input/output points

It is necessary to clear the I/O points of the control system first, and then reserve 15~20% of the actual required points (leaving room for system transformation, etc.) before determining the points to be PLC.

The output points of PLC can be divided into common point type, grouping type and isolation type. Different voltage types and voltage levels can be used between groups of output points of isolated type, but the average price of each point of this PLC is higher. If isolation is not required between output signals, PLC of the first two output modes shall be selected.

(2) Selection of storage capacity

The user storage capacity can only be roughly estimated. In the system that only controls the switching value, it can be estimated by multiplying the input points by 10 words/point+the output points by 5 words/point; Counter/timer is estimated by (3-5) words/piece; (5~10) words/quantity for calculation processing; In the system with analog input/output, it can be estimated according to the storage capacity of about (80~100) words for each input/(or output) analog; In case of communication processing, the quantity of more than 200 words per interface shall be roughly estimated. After that, an allowance of 50-100% of the estimated capacity is generally reserved. For inexperienced designers, the margin should be larger when selecting capacity.

(3) Selection of I/O response time

The I/O response time of PLC includes input circuit delay, output circuit delay and time delay caused by scanning mode (generally 2~3 scanning cycles). For the switch control system, the PLC and I/O response time can generally meet the requirements of the actual project, so I/O response can be ignored. But for analog control system, especially for closed-loop system, this problem should be considered.

(4) Type selection according to the characteristics of output load

Different loads have corresponding requirements for the output mode of PLC. For example, transistor or thyristor output type shall be selected for inductive load with frequent on-off, rather than relay output type. However, relay output type PLC has many advantages, such as small conduction voltage drop, isolation function, relatively cheap price, strong ability to withstand transient over-voltage and over-current, flexible load voltage (AC and DC) and wide range of voltage levels. Relay output type PLC can be selected for AC and DC loads with infrequent actions.

(5) Choice of online and offline programming

Offline programming means that the host computer and the programmer share a CPU, and the programming, monitoring and operation status of the PLC can be selected through the selector switch of the programmer. In the programming state, the CPU only serves the programmer and does not control the field. Online programming means that the host computer and the programmer each have a CPU. The host computer's CPU completes the control of the site, communicates with the programmer at the end of each scan cycle, and the programmer sends the modified program to the host computer. In the next scan cycle, the host computer will control the site according to the new program. Computer aided programming can realize both off-line programming and on-line programming. Computer shall be purchased and programming software shall be configured for online programming. The programming method shall be determined as required.

(6) Model selection according to whether the network communication is available

If the PLC controlled system needs to be connected to the factory automation network, the PLC needs to have the communication networking function, that is, the PLC should have the interface to connect other PLCs, upper computers and CRTs. Both large and medium-sized computers have communication functions. At present, most minicomputers also have communication functions.

(7) Selection of PLC structure

In the case of the same function and the same I/O point data, the overall price is lower than the modular price. However, the modular type has the advantages of flexible function expansion, convenient maintenance (module replacement), and easy fault diagnosis. The PLC structure should be selected according to the actual needs. General Electric Company designed the processor/controller of IS220UCSAH1AMark VIe system.



This is a single box assembly with a front panel for communication connection, two screws mounted on the rear edge, and three grille holes for ventilation. The controller is designed to be installed at the bottom of the cabinet. For a small setup that is easy to serve a triple redundant system, up to three components can be installed side by side. Sensor output mechanical angle θ Signal, from system interface XIO board to CTR main control board, converted to θ r. At the rotor angular speed ω R form, feedback the speed directly to the speed regulator.



Torque setting T_ R will come from SFC of speed regulator_ T_ R carries out torque limitation processing and di/dt calculation to obtain the final torque reference IQ_ R signal. ID_ R is the given signal of magnetic flux, which has the following functions: below the base speed, keep the magnetic flux constant, and speed the motor with constant torque; Above the base speed, keep the voltage constant, reduce the magnetic flux in a certain proportion, and speed the motor with constant power.



After the vector calculation control system completes the IGBT trigger signal, the processor motherboard transmits the trigger pulse to the inverter, controls the IGBT on and off, and obtains the input voltage and frequency of the required motor that is approximate to the sine wave, thereby adjusting the motor speed.



2.3 Data communication